Eurocode 3 for Dummies The Opportunities and Traps
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1 Eurocode 3 for Dummies The Opportunities and Traps a brief guide on element design to EC3 Tim McCarthy tim.mccarthy@umist.ac.uk Slides available on the web mccarthy/index.htm Follow the link from my home page From 21 March
2 Eurocode 3 Current status Coverage Pitfalls Major and minor differences with BS5950 Element Design Beams, Struts Capacity comparisons Overview 3 EC3 Current Status 4
3 E-SCI News March Eurocode terminilogy EN EuroNorm mandatory standard ENV EuroNorm Voluntaire You can use it if you wish DD Draft for development DC Draft for public comment pren Pre-EuroNorm between DD and EN 6
4 EC3 Current Published Status DD ENV :1992 1:1992 Eurocode 3. Design of steel structures. General rules and rules for buildings (together with United Kingdom National Application Document) DD ENV :2001 Eurocode 3. Design of steel structures. General rules. Structural fire design (together with United Kingdom National Application Document) DD ENV :2001 3:2001 Eurocode 3. Design of steel structures. General rules. Supplementary rules for cold formed thin gauge members and sheeting 7 Other EC s s Published Status pren :2002 1:2002 Design of composite steel and concrete structures. Part 1.1 General rules and rules for buildings. Stage 49 Examination Document DD ENV :1997 Eurocode 8: Design provisions for earthquake resistance of structures. Towers, masts and chimneys 8
5 Potential pitfalls Terminology Restricted vocabulary Change in symbols More logical symbol name conventions Lots of subscripts Changes in values Young s s Modulus etc Multiple documents Need to consult more than one part 9 BS5950 Force Capacity Terminology EC3 Action Resistance M c Design strength p y Dead load Live load Wind load M c,rd Yield strength f y Permanent load Variable load Another variable load 10
6 BS5950 in wonderland Words evolved over time Inconsistent at times No link with concrete structural codes Terminal ogy EC3 Vocabulary consistent with meaning Consistent across all Eurocodes Easy to translate 11 Symbols BS5950 Eurocode Elastic Modulus Z W el Plastic Modulus S W pl Radius of r i Gyration Torsion constant J I t Warping constant H I w 12
7 Changes in Values Young s s Modulus BS N/mm² EC N/mm² Shear modulus BS N/mm² EC N/mm² Changes in load factors BS 1.4Gk Qk EC 1.35Gk Qk Many extra load combinations in EC Main variable action Secondary variable action 13 Axes redefined in Eurocodes Major axis is y-y Vertical axis is z-z X direction is along the member This is consistent with most FE and Frame analysis software EC3 Definitions 14
8 BS Section classification ε = (275/p y ) pren1993 Classification Different outstand Different ε ε = (235/f y )
9 Multiple documents The DD ENV 1993:1-1 1 contained all the information in one 300 page document. It also contained the National Application Document pren Contains member and frame design but omits fasteners pren1993 must be read in conjunction with the UK National Annex 17 Element Design Beams Moment capacity/resistance Shear Deflections Compression members Lateral Torsional Buckling y z u x Civil & Construction φengineering 18
10 BS5950 Class 1 and 2 M c = p y S Moment Resistance Class 3 semi-compact M c = p y Z or M c = p y S eff Class 4 slender M c = p y Z eff Low shear F v < 60 % P v EC3 Class 1 and 2 M c,rd = f y W pl γ M1 = 1.05 in UK Class 3 M c,rd = f y W el,min pl /γ M1 el,min /γ M1 Class 4 M c,rd = f y W eff,min Low shear V Ed < 50% V plrd eff,min /γ M1 19 BS5950 P v = 0.6 p y A v Shear area A v = td Shear buckling if d/t > 70ε Shear Resistance EC3 V pl,rd = A v (f y / 3)/ 3)/γ M1 Shear area A v = A 2bt f +(t w +2r)t f Approx = 1.04tD Shear buckling if h w /t w > 72ε 20
11 BS5950 Serviceability LS Imposed load only Span/360 - brittle Span/200 - generally Deflections EC3? EN1990 Serviceability LS Permanent action, δ 1 Variable action, δ 2 Pre-camber, δ 0 δ max < L/ 250 δ 2 < L / 350 brittle δ 2 < L / 300 generally 21 BS5950 Serviceability LS Imposed load only Span/360 - brittle Span/200 - generally Deflections EC3? EN1990 Serviceability LS Permanent action, δ 1 Variable action, δ 2 Pre-camber, δ 0 d max = d 1 + d 2 - d 0 δ max < L/ 250 δ 2 < L / 350 brittle δ 2 < L / 300 generally δ 1 δ 2 δ 0 δ max 22
12 Compression Members P c = Ag p c from Tables 23 and 24 p c is a function of λ BS5950 requires a large number of tables N b,rd =χ A f y /γ M1 χ is a reduction factor χ depends on? non-dimensional slenderness Perry-Robertson approach 23 = Compression members N f b, Rd a y M 1 1? = χβ A but [ ] 2 2 f? 1 + a (? 0,2 ) [ ] 2? f = 0,5 + [ ] 0.5 βaa f y Ncr = λ λ1, λ π E f y λ = = 1 f γ? 1 24
13 Compression members N = χβ A b, Rd a y M 1 f γ 25 Example UC 203x203x60 of grade S275 is axially loaded and pinned at each end of its 6m length. A = 76.4 cm²,, flange thickness, tf = 14.2mm, radius of gyration about minor axis, i zz = 5.2 cm, depth, h = 209.6mm, width b = h/b= = 1.01 => H section Table 3.1: t f = 14.2mm < 40mm therefore fy=275n/mm =275N/mm² for S275 grade E = N/mm² Slenderness - λzz= = 600/5.2 = 115 <180 OK βa=1.0, implies λ 1 =π(e/fy) 0.5 = 86.8 ( λ zz / λ 1 ) βa 0.5 = 115/86.8 = 1.324? 26
14 Example UC 203x203x60 of grade S275 is axially loaded and pinned at each end of its 6m length. Figure 6.3 factor, χ = 0.38 N brd = 0.38*1.0*76.4*10²*275/1.05 *275/1.05 = 760kN BS kN 28
15 But EC loads are typically 5% lower than BS Scaling the capacity by this figure gives: EC3 = 760/0.95 = 800 kn EC3 stronger than BS at 786 kn 29 LTB BS5950:2000 M x M b /m LT M b = p b modulus p b from λ LT λ LT = uvλ λ ß W Class 1 & 2: β W = 1.0 and M x M cx Class 1 & 2: Mb b = p b S x 30
16 LTB BS5950:2000 M x M b /m LT M b = p b modulus p b from λ LT λ LT = uvλ λ ß W Mb b = p b S x and M x M cx 31 BS 5959 Table 18 m LT When β = 0 m LT =
17 BS m LT for UDL 33 p b from Table 16 34
18 1.0 For UB, UC EC3 LTB Same approach as for Compression M? LT b.rd = χ LT β ww pl.y f y / = φ LT [ φ λ ] 0, 5 LT LT γ M φ LT = 0,5 1 + LT ( λlt 0.2) + λlt 2 35 φ LT α LT = 0,34 for rolled UCsections EC3 LTB = 0,5 1+ LT ( λlt 0.2) + λlt α LT = 0,49 for rolled UB sections 2 W ply.f y The non-dimensional slenderness λ LT = M / M pl. Rd cr π EI I L GI 2 2 z w t M cr = C1 + Where 2 2 C1 results from the L I z π EI z bending moment diagram 36
19 EC3 LTB Moment factor, C 1 loaded between restraints 37 EC3 LTB Moment factor, C 1, due to end moments 38
20 Same curves as before! M = χ β W f b.rd LT w pl.y y / γ M 1 39 Example Uniform moment unbraced length 3m UB 610x229x140 S275 BS M b = 1100 knm EC3 M brd = 960kNm For comparison scale by 1/0.95 M brd scaled = 1010 knm < than BS 40
21 Summary of LTB BS5950 splits calculations between strength and equivalent moment EC3 combines equivalent moment and section properties to give a reduction factor EC3 uses EXACT same buckling curves for LTB and Strut buckling EC3 look awful but is easily programmed in a spreadsheet 41 Conclusions Eurocodes are not that difficult They are just a little different Rationalises terminology across materials and countries The EFTA region is 10 times bigger than UK Eurocodes are not going to go away this time 42
22 Questions?? 1. How quickly will the take up be in the UK? Ans: : It should be quicker than the switch from BS449 to 5950 was since both EC3 and BS5950 are limit states codes. EC3 will become mandatory. 2. What does EC3 say about effective lengths? Ans: : The EC3 guidance is not as helpful as BS5950 Table 22. EC3 gives the general approach for effective lengths in frames which results in the same values as Table Questions?? 1. How is Europe progressing with using EC3? Ans: : The German speaking countries have already adopted the DDENV as a DIN. Benelux countries are well advanced. The rest are planning the implementation. 2. What s s in EC3 about sway, lambda crit etc? Ans: : There is a lengthy section in the pren on frame stability. On initial viewing, this looks very like the BS5950:2000 approach. See Section 5 of the pren for the full details 44
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